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The Nano eNabler System™
The Nano eNabler™ molecular printing system includes the printer (Nano eNabler™), the print cartridges (SPT™) and the "paper"? (Sindex™ Chips).


The  Nano eNabler System™ at the right embodies proprietary instrumentation and methodology for creating a broad spectrum of new nanotechnology applications. This device places molecules at defined locations on a surface with nanometer spatial resolution. The arrays of molecules are unique to BioForce and can only be created with a Nano eNabler System™.  The Nano eNabler System™ prints proteins and other biological and non-biological materials onto silicon chips and other surfaces with ultra-micro spot sizes ranging from 20 microns to 1 micron, and in the nanometer range to 250 nm. Ultramicro- or nanoarrays of up to 10-50 domains or more can readily be produced and can subsequently be used as ultraminiature test sites for biomolecular interactions.

The SPT™ Print Cartridges

An SPT™ (Surface Patterning Tool) is the molecular “ink cartridge” for our desktop molecular printer (Nano eNabler System™). Each SPT is a microcantilever-based micro-fluidic handling device. SPTs contain either a single microcantilever print head or multiple microcantilevers for simultaneous printing of multiple molecular species.  The integrated microfluidic network  transports fluid samples from reservoirs located on the SPT through microchannels to the distal end of the cantilever. Thus SPTs can be used to print materials that include biological samples such as proteins, DNA, RNA, and whole viruses, as well as non-biological samples such as chemical solutions, colloids and particle suspensions. BioForce Nanosciences Inc. supplies a variety of different SPTs to meet a broad range of customer needs and can also provide custom SPT design and fabrication.

The Sindex™ Chips "Paper"

The Sindex™ Chips provide ideal printing surfaces for the desktop molecular printer (Nano eNabler System™). These 4x4 mm silicon substrates contain topographically defined pads that are arrayed within an alphanumeric indexing system. The pads are flat and smooth, making them compatible with conventional (e.g., fluorescence) and nonconventional (e.g., atomic force microscopy) readout mechanisms. The indexing system allows precise location and relocation of specific positions on the chip. The surface can be coated with different metals and treated by a variety of approaches to render it chemically reactive.